CN105090435A - Vehicle flexible drive plate with torsion damper - Google Patents

Abstract

The invention provides a flexible drive plate. The flexible drive plate is provided with a torsion damper of a spring in a spring-socket. The rotation direction of the spring-socket relative to a crankshaft is nonlinear. The torsion damper is connected with the crankshaft of an engine and the input component of a transmission device, wherein the crankshaft has a rotation direction. The damper comprises a drive plate connected with the crankshaft, a driven plate connected with the input component, a plurality of springs, and spring-sockets formed on the drive plate and the driven plate, the number of the spring-sockets being corresponding to the number of the springs. Each spring is provided with a plastic locating part. The angle of the axis of each socket, relative to the rotation direction of the crankshaft, is any degree except 90 DEG.

Description

There is the vehicle flexible drive plate of torsional vibration damper

Technical field

Present invention relates in general to the soft drive dish for vehicle transmission gear.More specifically, the present invention relates to and be added into torsional vibration damper with the extra vibration damping of the moment of torsion providing motor to produce and the soft drive dish of power train of torsional vibration being isolated rear shock absorber front.

Background technique

Nowadays the power transmission system of most of Hyundai Motor comprises the automatic transmission of the standarized component as vehicle transmission system.Typical automatic transmission is integrated with soft drive dish (or flexible disk).Soft drive dish provides the mode of the flywheel of mechanical connection to operate to be different from manual transmission between speed changer and motor.

Soft drive dish is mechanically fixed to the output terminal of engine crankshaft usually by bolt.The output terminal of soft drive dish self is connected to the torque-converters self comprising inner vibration damping assembly.This vibration damping assembly is immersed in the fluid (automatic transmission fluids (ATF)) of lubrication speed changer usually.

Traditional soft drive dish is made up of steel and therefore the usual flywheel than conventional cast is thin.The design of soft drive dish compensates the out-of-alignment fact found in usual connection between motor and speed changer based on this dish.Motor and the less misalignment of speed changer need soft drive dish relatively in a small amount bending, and the larger misalignment of motor is relatively large bending by needing.

Constantly increase along with to the demand of engine performance, more focus on soft drive dish to the impact in vehicle performance.Because engine displacement reduces to make great efforts to increase fuel economy, this re-examine is particular importance.The motor of 1.5L and 1.0L is just equipped to vehicle.Comparatively puffer has plenty of moment of torsion admittedly increases.Such as, turbo charged three cylinder 1.0L in upright arrangement start function to produce the supercharging moment of torsion of 200Nm.

Significant compared with the benefit of puffer to fuel economy.But this benefit is not do not have cost, such as little compared with in-line four cylinder or V6 motor high torque engines can produce serious torsional vibration.In addition, in in-line four cylinder or V6 motor, the humorous wave frequency of engine idle is more much lower than three cylinder 1.0L motors in upright arrangement.This is because the motor with this or less cylinder produces usually lower power train frequency, thus cause the resonance of more power train.On the other hand, test data shows the 1.0L motor mated with conventional transmissions and produces significant undesirable vibration, and this is the result of low frequency transmission system and low frequency Engine Matching.Because rotating force to be transferred to the comparatively long pass moving axis required for input end of back axle from the output terminal of speed changer, typical pick up also produces lower harmonic frequency.This kind of car usually shows and serious pulls (lugging) problem.

The Improving Measurements reducing or eliminate the vibration that 1.5L and 1.0L motor produces has dual character.Such as, taken a large amount of cost design to go out to improve the converter clutch vibration damper absorbing vibration.But, this method not only very expensive and due to lower engine speed is equivalent to that lower engine frequencies makes usually can not locking torque-converters when lower engine speed.When engine frequencies is in the scope of power train frequency, resonate except causing other shortcoming, cause there is negative effect to car load fuel economy.

The another kind strategy eliminating the undesirable vibration produced compared with puffer is the bent axle utilizing extremely balance.On the one hand, the bent axle of balance has positive effect.On the other hand, use such bent axle to be a kind of solution of costliness, this has departed from and has manufactured and the low cost target of the highly effective fuel vehicle that operates.

In multiple fields of vehicle technology, always exist and may be used for reducing engine luggine and increase the relevant improvement space of the step of fuel economy simultaneously.

Summary of the invention

The invention provides and the solution reducing the challenge associated about the engine luggine of comparatively puffer (there is the discharge capacity of 1.5L with 1.0L usually) generally, however the present invention can be applied to flexible disk integrated enter vehicle transmission system any situation in.Like this, can be applied even more extensively in various engines according to flexible disk of the present invention.

Especially, torsional vibration damper assembly is added in the soft drive dish (flexible disk) of orthodox car by the present invention.Soft drive disc assembly is parts very common on automatic catch automobile.The invention provides moment of torsion vibration damping that more multimachine can produce motor and torsional vibration isolated the transmission system in rear shock absorber (vibration damper in such as converter clutch (TCC)) front.Soft drive dish of the present invention is by starting vehicle with starter motor gears meshing and being provided for suitable axle spring constant (axialspringrate) that torque-converters connects and still operating as the conventional flex dish of punching press.

The invention provides the soft drive disc assembly of the torsional vibration damper assembly with connecting engine bent axle and transmission device input block, wherein bent axle has sense of rotation.Vibration damper complement comprises the spring seat being formed in the respective numbers on drive plate and driven disc of the drive plate being connected to bent axle, the driven disc being connected to input block, multiple spring and mounting spring.Each spring seat has the axis tangent with the sense of rotation of bent axle.Each spring has longitudinal center line.Each axis becomes the angle except 90 ° relative to longitudinal center line.The quantity of spring seat can be changed according to the needs of torque capacity (torquecapacity) and spring constant.Such as, for low torque applications, the quantity of spring seat can be reduced to and is low to moderate three.Torque applications is higher, and the quantity of spring seat is larger.Correspondingly, the relative angle of spring seat can with number change.Thus the angle of each can be 120 ° when providing three spring seats, when providing four spring seats, the angle of each can be 90 °, and when providing five spring seats, the angle of each can be 72 °, and the rest may be inferred.

Can provide substantially at the bounding means (spacer) of each spring inner.The length of bounding means is less than the length of seat.Bounding means can be made up of any multiple suitable polymeric material (such as plastics or nylon).

Drive plate comprises the first side and the second side.Vibration damper comprises the first friction disk and the second friction disk further.First friction disk is mounted to the first side of drive plate and the second friction disk is mounted to the second side of drive plate.First friction disk, drive plate and the second friction disk form friction driving disc assembly.

Provide the cover plate for friction driving disc assembly being connected to driven disc.Starter motor ring gear is connected to driven disc.

The present invention considers and to instruct two mass-spring system Separation by vibration can be become two the relatively vibration of small vibration and the principles of vibration damping compared with single mass-spring system.Spring is added into soft drive dish and which provides the two mass-spring systems between motor and power train by the present invention.This is favourable compared with the traditional torque-converters vibration insulating system as single mass-spring system.

The additional benefit of soft drive dish vibration damper controls the natural frequency of system to the level lower than the natural frequency of engine idle.This is not by the single-stage (singlestage) on soft drive dish but spring individual operation realizes when realizing with during converter clutch damper combination.Of the present invention pair of mass-spring system avoids the resonance of power train and motor, allow converter clutch locking and do not need the somewhat complex design of bending moment clutch damper when extremely low engine speed, reduction material and assembly cost are not sacrificed for performance and had sizable advantage.

Read hereafter detailed description of the preferred embodiment by reference to the accompanying drawings, above-mentioned advantage and other advantage and feature will become apparent.

Accompanying drawing explanation

In order to more fully understand the present invention, with reference to describe in detail and be described as embodiment and the accompanying drawing of example of the present invention.

Fig. 1 illustrates the end elevation of soft drive dish of the present invention and vibration damping assembly;

Fig. 2 illustrates the stereogram of soft drive dish of the present invention and vibration damping assembly;

Fig. 3 illustrates the exploded view of soft drive dish of the present invention and vibration damping assembly;

Fig. 4 illustrates the sectional view of soft drive dish of the present invention and vibration damping assembly.

Embodiment

In the accompanying drawings, identical reference number is for illustration of same parts.In the following description, multiple running parameter and parts are described to the embodiment that difference builds.These design parameters and parts exemplarily comprise in this manual and do not mean that is restriction.

Generally, the present invention is by being connected by spring and the soft drive dish that forms of the driving disc of riveting each other and driven disc.This spring arranges formation vibration damper.

More specifically, referring to figs. 1 to 4, respectively illustrate on the whole with the end elevation of the 10 soft drive disc assemblies illustrated and stereogram.Soft drive disc assembly 10 comprises the ring gear 12 be arranged on driven disc 14 for engaging with starter motor (not shown) selectivity.

It is the vibration damping assembly 16 comprising the first friction disk 18, drive plate 20 and the second friction disk 22 in soft drive disc assembly 10.Vibration damping assembly 16 also comprises a series of shock-absorbing spring 24.Shock-absorbing spring 24 is located substantially in the first friction disk spring seat 26 of respective numbers, drive plate spring seat 28 and the second friction disk spring seat 30.

Careful selection spring cushion 24(spring cushion connection for transmission dish 20 and driven disc 14 and contact spring seat) make each spring 24 sufficiently strong simultaneously enough resistance in order to provide good operation there is no fault in the whole service life of vehicle to transmit maximum engine torque.The selection of shock-absorbing spring 24 and the selection of converter clutch spring must be made to realize minimum vibration frequency according to suitable elastic constants.

By multiple mechanical fastener such as rivet 34, vibration damping assembly cover plate 32 is connected to driven disc 14.By on vibration damping assembly cover plate 32 formed rivet hole 35 and driven disc 14 on formed rivet hole 36 rivet 34 is installed.A series of rivet hole 35 and 36 is circular to prevent rivet 34 wherein from moving.Other locking method can be adopted.Vibration damping assembly 16 is fixed to driven disc 14 by such vibration damping assembly cover plate 32.

In the fabrication process, this series of rivets hole 35 and 36 strikes out and has very narrow gap relative to rivet 34.Like this, driven disc 14 can be rotated freely relative to drive plate 20 by the guiding of rivet 34.Its length can be chosen to the degrees of freedom realizing suitable angular displacement.

Driven disc 14 comprises a series of driven disc spring seat 37 and vibration damping assembly cover plate 32 comprises the vibration damping assembly cover spring seat 38 of respective numbers.Each driven disc spring seat 37 comprises spring maintenance flange 40 and each vibration damping assembly cover spring seat 38 comprises spring maintenance flange 42.Spring keeps flange 40 and 42 to retrain shock-absorbing spring 24.

Drive plate 20 is formed with the series installation hole 44 for (showing in Fig. 4) bolt 46, soft drive disc assembly 10 being connected to (showing in Fig. 4) engine crankshaft 48.Thus to the moment of torsion of drive plate 20 from motor or electric motor.

To show one in construction bolt 52(Fig. 4) by the mode in the hole 54 that driven disc 14 is formed, driven disc 14 is connected to torque-converters 50.

In order to limit the relative angular displacement between drive plate 20 and driven disc 14, bounding means 56(is preferably made up of polymeric material such as plastics) be arranged on substantially in each shock-absorbing spring 24.The length of each bounding means 56 than spring seat 26,28,30,38 and 40 short, thus driven disc 14 relative to the angular displacement of drive plate 20 can not exceed bounding means 56 and spring seat 26,28,30, length difference between 38 and 40.

As described above, the invention discloses the torsional vibration damper of connecting engine bent axle 48 and speed changer input block or torque-converters 50, wherein engine crankshaft 48 has sense of rotation.Each one in spring seat 26,28,30,38 and 40 has the axis 101 tangent with the sense of rotation of engine crankshaft 48.Each spring 24 has longitudinal center line 103.Each axis 101 is relative to the angle of longitudinal center line 103 one-tenth except 90 °.As shown in Figure 1, be illustrated as the standard configuration that " A " combine with known spring-spring seat (spring-pocket) that dotted line shows and show traditional Hookean spring layout.Be shown as " A " spring longitudinal center line 102 compared with, the longitudinal center line 103 of medi-spring 24 of the present invention is (off-axis) of departing from longitudinal center line 102.Compared with traditional Hookean spring layout, spring 24 departs from the layout of longitudinal center line 102 also referred to as non-linear layout.

During running, when there is the whirling vibration of transmission between transmission Moving plate 20 and driven disc 14, drive plate 20 and driven disc 14 rotate toward each other, thus compression shock-absorbing spring 24.Owing to there is friction between these two dishes 14 and 20, their contact surface provides good vibration damping.So in order to durability degree must to harden in drive plate 20 and driven disc 14 contact surface of each one, but it is too high otherwise can not produce required frictional force to be machined to smoothness.The another kind of method realizing frictional force target applies enough clamp load by what regulate riveting process to realize to drive plate 20 and driven disc 14.

Soft drive disc assembly 10 disclosed in this invention effectively reduces the torsional vibration produced by current system.Especially, disclosed soft drive disc assembly 10 and torque-converters together provide the system of a series of spring, and wherein total spring constant can be described as:

K=1/(1/K1+1/K2)=K1*K2/(K1+K2)=K2*[K1/(K1+K2)]。

Wherein, K1 representative is according to the spring constant of soft drive disc assembly medi-spring of the present invention, and K2 represents the spring constant of torque-converters medi-spring.

As described, by applying the shock-absorbing spring in disclosed soft drive disc assembly 10, because K1/ (K1+K2) is always less than 1, bent axle reduces to total spring constant of transmission system.

System frequency equals: f=(K/I) ^ (1/2), and wherein I is total inertia of system.So based on equation above, because spring constant reduces, system frequency reduces.

Except reduction torsional vibration detailed above, because soft drive disc assembly can make torque-converters 50 locking when lower engine speed, soft drive disc assembly 10 of the present invention improves the fuel economy of vehicle, thus provides the solution of serious torsional vibration and the undesirable dynamical system resonance produced in current three cylinder combustion engines.Soft drive disc assembly 10 can also be used in the power train of motor vehicle driven by mixed power to solve known serious electric motor Vibration on Start-up.

At least for the above reasons, above-detailed instant invention overcomes well-known depend on the vehicle drive system that tradition between engine crankshaft and torque-converters connects faced by challenge.But technician in the art should be realized that and do not depart from connotation that the present invention defined by claim and zone of reasonableness can make various changes, modifications and variations to discussion above, accompanying drawing and claim.

Claims (20)

1. a torsional vibration damper for connecting engine bent axle and transmission device input block, described bent axle has sense of rotation, and described vibration damper comprises:

Be connected to the drive plate of described bent axle;

Be connected to the driven disc of described input block;

Spring;

Form the spring seat of the described spring of installation on the disc, each seat has the axis tangent with described sense of rotation, and each spring has longitudinal center line, and described axis becomes the angle except 90 ° relative to described longitudinal center line.

2. torsional vibration damper according to claim 1, comprises the bounding means being arranged on each described spring inner further.

3. torsional vibration damper according to claim 2, is characterized in that, each described seat has length and wherein said bounding means has length, and the described length of described seat is longer than the described length of described bounding means.

4. torsional vibration damper according to claim 3, is characterized in that, described bounding means is shaped by polymeric material.

5. torsional vibration damper according to claim 1, it is characterized in that, described drive plate comprises the first side and the second side, described vibration damper comprises the first friction disk and the second friction disk further, described first friction disk is mounted to described second side that described first side of described drive plate and described second friction disk are mounted to described drive plate, and described first friction disk, described drive plate and described second friction disk form friction driving disc assembly.

6. torsional vibration damper according to claim 5, comprises the cover plate for described friction driving disc assembly being connected to described driven disc further.

7. torsional vibration damper according to claim 1, comprises the ring gear being connected to described driven disc further.

8., for reducing a vibration damping assembly for the torsional vibration between engine crankshaft and torque-converters, described bent axle has sense of rotation, and described assembly comprises:

There is the drive plate of bent axle junction surface;

There is the driven disc of torque-converters junction surface;

Spring;

Form the spring seat of the described spring of installation on the disc, each seat has the non-linear layout of the described sense of rotation relative to described bent axle.

9. vibration damper complement according to claim 8, comprises the bounding means being arranged on each described spring inner further.

10. vibration damper complement according to claim 9, is characterized in that, each described seat has length and wherein said bounding means has length, and the described length of described seat is longer than the described length of described bounding means.

11. vibration damper complements according to claim 10, is characterized in that, described bounding means is shaped by polymeric material.

12. vibration damper complements according to claim 8, it is characterized in that, described drive plate comprises the first side and the second side, described vibration damper comprises the first friction disk and the second friction disk further, described first friction disk is mounted to described second side that described first side of described drive plate and described second friction disk are mounted to described drive plate, and described first friction disk, described drive plate and described second friction disk form friction driving disc assembly.

13. vibration damper complements according to claim 12, comprise the cover plate for described friction driving disc assembly being connected to described driven disc further.

14. vibration damper complements according to claim 8, comprise the ring gear being connected to described driven disc further.

15. 1 kinds of power transmission system, comprise:

Have the motor of bent axle, described bent axle has sense of rotation;

There is the transmission device of input block;

Connect the vibration damper complement of described bent axle and described input block, described vibration damper complement comprises flexible disk, the spring seat that described flexible disk has spring and formed wherein, and each described seat has the non-linear layout of the described sense of rotation of relatively described bent axle.

16. power transmission system according to claim 15, it is characterized in that, each described seat has the axis tangent with the described sense of rotation of described bent axle, and each spring has longitudinal center line, and described axis becomes the angle except 90 ° relative to described longitudinal center line.

17. power transmission system according to claim 15, comprise the bounding means of the inside being arranged on each described spring at least in part further.

18. power transmission system according to claim 17, is characterized in that, each described spring seat has length and wherein said bounding means has length, and the described length of described seat is longer than the described length of described bounding means.

19. power transmission system according to claim 17, is characterized in that, described bounding means is shaped by polymeric material.

20. power transmission system according to claim 15, comprise the ring gear being mounted to described vibration damper complement further.